Growth and metabolic changes in weanling rats with lesions in the dorsomedial hypothalamic nuclei

Weanling rats with ventromedial (VMNL) and dorsomedial (DMNL) hypothalamic lesions and sham-operated controls were maintained up t o 198 days after operation. Food intake was measured throughout the experiment and organ weights were recorded at various periods of sacrifice. Comparisons were made bet

## Abstract Dorsomedial hypothalamic lesions (DMNL) were produced in 26‐day‐old and 44‐day‐old male rats. Sham‐operated rats served as controls. Tail‐pinching (TP) was performed for five minutes at a time over two periods: the first TP period of six sessions each from post‐operative day 1 to day 17

## Abstract Weanling rats received bilateral electrolytic lesions in the ventromedial (VMN) or dorsomedial (DMN) hypothalamic nuclei; sham‐operated rats served as controls. The animals were maintained under standard conditions for 13–;17 days post‐operatively and killed by decapitation. In addition

## Abstract Bilateral electrolytic lesions were placed in the dorsomedial hypothalamic nuclei (DMN) of weanling male Sprague‐Dawley rats. Sham‐operated rats served as controls. After 22 days on lab chow and tap water ad libitum, the animals were injected with U‐^14^ C‐alanine 0.167 μC/μ moles intra

## Abstract Weanling male rats received electrolytic lesions in the ventromedial (VMN) and dorsomedial (DMN) hypothalamic nuclei, respectively. A third group of rats served as sham‐operated controls (CON). After the two hypothalamic syndromes had been well established, the animals were subjected to

## Abstract Male rats received bilateral electrolytic lesions shortly after weaning in the ventromedial (VMN) and dorsomedial (DMN) hypothalamic nuclei, respectively. A third group of rats served as sham‐operated controls. The animals were subjected to intragastric preloading with 33% d‐glucose and